[1] JOHN S. Strong localization of photons in certain disordered dielectric superlattices[J]. Physical Review Letters, 1987, 58(23): 2486-9.
[2] YABLONOVITCH E. Inhibited spontaneous emission in solid-state physics and electronics[J]. Physical Review Letters, 1987, 58(20): 2059-62.
[4] MEADE R D, BROMMER K D, RAPPE A M, et al. Electromagnetic Bloch waves at the surface of a photonic crystal[J]. Physical Review B, 1991, 44(19): 10961-C4.
[5] TARHAN, WATSON G H. Analytical expression for the optimized stop bands of fcc photonic crystals in the scalar-wave approximation[J]. Physical Review B, 1996, 54(11): 7593.
[9] MEADE R D, RAPPE A, BROMMER K, et al. Accurate theoretical analysis of photonic band-gap materials[J]. Physical Review B, 1993, 48(11): 8434-7.
[10] HU X, SHEN Y, LIU X, et al. Superlensing effect in liquid surface waves[J]. Physical Review E, 2004, 69(3): 030201.
[11] ARTIGAS D, TORNER L. Dyakonov surface waves in photonic metamaterials[J]. Physical Review Letters, 2005, 94(1):
[12] FOTEINOPOULOU S, KAFESAKI M, ECONOMOU E, et al. Backward surface waves at photonic crystals[J]. Physical Review B, 2007, 75(24): 245116.
[13] CAGLAYAN H, BULU I, OZBAY E. Off-axis directional beaming via photonic crystal surface modes[J]. Applied Physics Letters, 2008, 92(9): 092114.
[14] JOANNOUPOULOS J, MEADE R, WINN J. Photonic crystals: molding the flowof light[M]. Princeton:Princeton University Press, 1995.
[15] MORENO E, GARC A-VIDAL F, MART N-MORENO L. Enhanced transmission and beaming of light via photonic crystal surface modes[J]. Physical Review B, 2004, 69(12): 121402.
[16] MORENO E, MARTINMORENO L, GARCIAVIDAL F. Efficient coupling of light into and out of a photonic crystal waveguide via surface modes[J]. Photonics and Nanostructures-Fundamentals and Applications, 2004, 2(2): 97-102.
[17] BULU I, CAGLAYAN H, OZBAY E. Beaming of light and enhanced transmission via surface modes of photonic crystals[J]. Optics Letters, 2005, 30(22): 3078-80.
[18] ZHAO D, ZHOU C, ZHANG Y, et al. Vertical cavity-surface emitting photonic crystal surface-mode lasers[J]. Applied Physics B, 2008, 91(3-4): 475-8.
[19] SONG D S, KIM S H, PARK H G, et al. Single-fundamental-mode photonic-crystal vertical-cavity surface-emitting lasers[J]. Applied Physics Letters, 2002, 80(21): 3901.
[20] XIAO S, QIU M. Surface-mode microcavity[J]. Applied Physics Letters, 2005, 87(111102).
[21] LEHMAN A C, RAFTERY J J, CARNEY P S, et al. Coherence of photonic crystal vertical-cavity surface-emitting laser arrays[J]. IEEE Journal of Quantum Electronics, 2007, 43(1): 25-30.
[22] ISHIZAKI K, NODA S. Manipulation of photons at the surface of three-dimensional photonic crystals[J]. Nature, 2009, 460(7253): 367-70.
[23] LU T W, HSIAO Y H, HO W D, et al. High-index sensitivity of surface mode in photonic crystal hetero-slab-edge microcavity[J]. Optics Letters, 2010, 35(9): 1452-4.
[24] ELSON J M, TRAN P. Coupled-mode calculation with the R-matrix propagator for the dispersion of surface waves on a truncated photonic crystal[J]. Physical Review B, 1996, 54(3): 1711.
[25] RAMOS-MENDIETA F, HALEVI P. Surface electromagnetic waves in two-dimensional photonic crystals: effect of the position of the surface plane[J]. Physical Review B, 1999, 59(23): 15112.
[26] HO K, CHAN C, SOUKOULIS C. Existence of a photonic gap in periodic dielectric structures[J]. Physical Review Letters, 1990, 65(25): 3152-5.
[27] LEUNG K, LIU Y. Photon band structures: The plane-wave method[J]. Physical Review B, 1990, 41(14): 10188.